Complications after craniofacial reconstruction with calcium phosphate cements: a case report and review of the literature

Among different graft materials for craniofacial reconstruction, calcium phosphate cements have the advantages of alloplastic grafts and wide use. The authors report a case of foreign body reaction following frontal reconstruction with JectOS (an injectable calcium orthophosphate cement; Kasios) and reviewed the literature on complications of this material after craniofacial reconstruction from 2002 to 2017. Complications were categorized into two groups: immunologic reactions (consisting of seroma collection, chronic sinus mucosa swelling, and foreign body reaction) and non-immune events (infection, fragmentation, and ejection). It is wise to use calcium phosphate-based material only in selected cases with small defects, and long-term follow-up is needed to observe their consequences.

Mechanical Reinforcement Strategy of Calcium Phosphate Cements by Loading Polymers / 中国医疗器械杂志

Calcium phosphate cement (CPC) is well known for the excellent bioactivity and biocompatibility, however, CPC has been used only for the repair of non-load bearing bone defects due to its brittle nature and low flexural strength. Polymer reinforced CPC has been considered as one of the most effective strategies for mechanical reinforcement. This paper summarizes various kinds of polymers loaded CPC:fiber reinforcement, microsphere reinforcement and dual setting cements. It is aimed to analyze the advantages, disadvantages and principles of the polymers reinforced CPC, and so as to lay a foundation for the further research of improving and manufacturing the CPC with ideal mechanical properties.

Fiber-enriched calcium phosphate cement implanted in the femur of rats: a histological evaluation / Cimento de fosfato de cálcio reforçado por fibras implantados nos fêmures de ratos: uma avaliação histológica

Objective: to perform a histological analysis of nylon, carbon, and polypropylene fiber-enriched calcium phosphate cement (CPC) for use as bone substitute in the femur or rats. Materials and method: Fiber-enriched CPC blocks (6-mm diameter, 2-mm thickness) were im-planted in the femur of 20 male Wistar rats. The ani-mals were euthanized at 30, 60, 90, and 120 days, with removal and histological assessment of specimens. Results: Biocompatibility, resorption, and osteoconduc-tion were assessed. At all times, histological assessment revealed the formation of dense connective tissue with low cellularity, little vascularization, and a few mono-nuclear cells. Surrounding the implant, slight resorption and hyalinization of peripheral collagen fibers were ob-served, with evidence of incorporation of implant mate-rial into connective tissue. Osteoid tissue was observed at 120 days. Bone resorption surrounding the implant was not significant. Conclusion: Based on the present criteria, CPC seems adequate for use as bone substitute.

Development of macroporous calcium phosphate cements as bone substitutes by using gelatin microspheres / 中国矫形外科杂志

[Objective]To develop macroporous calcium phosphate cements(CPCs) by incorporating the gelatin microspheres(GMs) and to evaluate the performance of the composite as a bone substitute in vitro and in vivo. [Methods]GMs were prepared by improved emulsified cold-condensation method and macroporous CPCs were developed using GMs with three different weight ratios (0%,2.5% and 5%). The porosity and the compression strength of the three composites were measured to determine the proper weight ratio of GMs. The morphologic changes of osteoblasts were examined with scanning electron microscope at two days after the cells were seeded on the CPCs and GMs/CPCs. The cells were also cultured with different leaching liquor of three kinds of materials (0%,2.5% GMs/CPCs and polystyrene).Cell viability analysis was performed by MTT assay,and alkaline phosphatase was measured with alkaline phosphatase kit. At six months after implanted in the goat vertebre ,the samples with CPCs or GMs/CPCs were obtained and evaluated by X-ray image and histological anatomy.[Results]Porosity of the GMs/CPCs increased with the increase of GMs,but compression strength decreased. The proliferation and differentiation of the osteoblasts were enhanced with the 2.5% GMs/CPCs compared to the CPCs. In vivo study showed that the degradation of GMs/CPCs was improved.[Conclusion]Macroporous calcium phosphate cements can be developed by incorporating gelatin microspheres,and biocompatibility and degradability of the composite can be enhanced. The composite can be used as a bone substitute under non-loaded circumstances.